& make your SoC flexible for changing needs.
eFPGA proven on 6/7, 12, 16, 22, 28, 40 & 180nm.
Join us in reviewing developments in microcircuit applications for government systems at GOMAC in Hyatt Regency Miami, Miami, FL Come to our booth and see our presentation "Radiation Hardened Techniques for eFPGAs for Accelerating Different Applications"
Come visit us at the First Annual SmartNICs Summit. It is the show network designers can’t miss if they want to stay competitive in the networking world. They’ll get the scoop on ways to make their networks run faster, scale better, use less power, and be more flexible. This unique event gives attendees a place to network with peers, ask questions of the experts, and talk to experts about how eFPGA can make your SmartNIC SOCs accelerate key functions and stay flexible.
Join us in San Jose, CA on April 26-27, 2022 for the Computer Vision Summit. In April 2022, the Computer Vision Summit will start it's Computer Vision world tour assembling leaders in Computer Vision from the world's largest organizations and most exciting startups in Silicon Valley to share success stories, experiences and challenges. https://computervisionsummit.com
Flex Logix™ Technology
Inference and eFPGA are both data flow architectures. A single inference layer can take over a billion multiply-accumulates. Our Reconfigurable Tensor Processor reconfigures the 64 TPUs and RAM resources to efficiently implement a layer with a full bandwidth, dedicated data path, like an ASIC; then repeats this layer by layer. Flex Logix utilizes a new breakthrough interconnect architecture: less than half the silicon area of traditional mesh interconnect, fewer metal layers, higher utilization and higher performance. The ISSCC 2014 paper detailing this technology won the ISSCC Lewis Winner Award for Outstanding Paper. The interconnect continues to be improved resulting in new patents.
We can easily scale up our Inference and eFPGA architectures to deliver compute capacity of any size. Flex Logix does this using a patented tiling architecture with interconnects at the edge of the tiles that automatically form a larger array of any size.
TIGHTLY COUPLED SRAM AND COMPUTE
SRAM closely couples with our compute tiles using another patented interconnect. Inference efficiency is achieved by closely coupling local SRAM with compute which is 100x more energy efficient than DRAM bandwidth. This interconnect is also useful for many eFPGA applications.
DYNAMIC TENSOR PROCESSOROur dynamic tensor processor features 64 one-dimensional tensor processors closely coupled with SRAM. The tensor processors are dynamically reconfigurable during runtime, using our proprietary interconnect, thus enabling implementation of multi-dimensional tensor operations as required for each layer of a neural network model, resulting in high utilization and high throughput.
SOFTWAREUnlike solutions designed around AI model development and training, our Inference accelerator starts with a trained ML model, typically in ONNX format and generates a program that runs on our InferX accelerators.
Our eFPGA compiler has been in use by dozens of customers for several years. Software drivers will be available for common Server OS and real time OS for MCUs and FPGAs.
InferX PCI Express and M.2 offeringsThe InferX X1 processor is in production and is available now in PCI Express (HHHL), M.2 (M+B key) and chip level offerings.
SUPERIOR LOW-POWER DESIGN METHODOLOGYFlex Logix has numerous architecture and circuit design technologies to deliver the highest throughput at the lowest power.
Embedded FPGA (eFPGA) is the next big market for semiconductor IP. It can be used on almost every kind of digital chip and has a significant software value add as well—much like the market for embedded processors. When it comes to chip design, eFPGA provides competitive advantages that can add up to millions of dollars in savings and flexibility that wasn’t possible until now.
Consider these 6 factors when selecting an AI accelerator for your medical device.
It’s an exciting time to be a part of the rapidly growing AI industry, particularly in the field of inference. Once relegated simply to high-end and outrageously expensive computing systems, AI inference has been marching towards the edge at super-fast speeds. Today, customers in a wide range of industries – from medical, industrial, robotics, security, retail and imaging – are either evaluating or actually designing AI inference capabilities into their products and applications.